2014 preview: Hydrogen SUV ready to hit the road

Ref:  http://www.newscientist.com/article/mg22029485.300-2014-preview-hydrogen-suv-ready-to-hit-the-road.html#.UsReE2eA2L8

27 December 2013 by Rowan Hooper
Magazine issue 2948 in New Scientist. Subscribe and save
For similar stories, visit the Energy and Fuels and Cars and Motoring Topic Guides

Read more: "2014 preview: 10 ideas that will matter next year"

 

 

Did you know that the Empire State Building's spire was designed as a mooring point for hydrogen airships? That proved too dangerous, though, and then a deadly fire on the Hindenburg in 1937 brought the hydrogen fad to an abrupt end. Now the lightest of elements is making a comeback as the first mass-market hydrogen car gears up to hit the road.

 

Whereas airships harnessed hydrogen's buoyancy, the Hyundai Tucson Fuel Cell, an SUV, uses it to make electricity. Its fuel cell combines hydrogen from the tank with oxygen in the air, creating an electrochemical reaction that generates current to supply electric motors. Water is the only waste product, making the cars green. Unlike battery-powered vehicles, which need hours to charge, refuelling takes minutes – and a full tank should last for 480 kilometres. Hyundai says the Tucson can hit 160 kilometres per hour.

 

Starting in spring next year, the firm will lease the cars for $499 a month in southern California. Home to nine of the US's 10 existing hydrogen refuelling stations, and committed to building 100 more, the Golden State is ahead of the hydrogen curve. Honda and Toyota plan to follow Hyundai's lead with fuel-cell cars in 2015. By contrast, a 2006 BMW offering burned liquid hydrogen but it was inefficient and never mass-produced.

 

Is the Tucson safe? If the tank springs a leak, fuel vents up into the air rather than pooling below, as in ordinary, gasoline-powered cars. Extensive crash and fire tests make Hyundai confident its offering won't go the way of the Hindenburg. The cars may just be the start of an environmentally friendly, 21st-century hydrogen economy.

See, I started smoking at two, and I'm still just fine. Smoking causing cancer is just a myth

See, I started smoking at two, and I'm still just fine. Smoking causing cancer is just a myth.

The future of the Higgs boson

Joseph Lykken and Maria Spiropulu
Ref.:  http://scitation.aip.org/content/aip/magazine/physicstoday/article/66/12/10.1063/PT.3.2212


Note: this is only part of the article.

Experimentalists and theorists are still celebrating the Nobel-worthy discovery of the Higgs boson that was announced in July 2012 at CERN’s Large Hadron Collider. Now they are working on the profound implications of that discovery.

Symmetries and other regularities of the physical world make science a useful endeavor, yet the world around us is characterized by complex mixtures of regularities with individual differences, as exemplified by the words on this page. The dialectic of simple laws accounting for a complex world was only sharpened with the development of relativity and quantum mechanics and the understanding of the subatomic laws of physics. A mathematical encapsulation of the standard model of particle physics can be written on a cocktail napkin, an economy made possible because the basic phenomena are tightly controlled by powerful symmetry principles, most especially Lorentz and gauge invariance.

How does our complex world come forth from symmetrical underpinnings? The answer is in the title of Philip Anderson’s seminal article “More is different.” ¹ Many-body systems exhibit emergent phenomena that are not in any meaningful sense encoded in the laws that govern their constituents.
One reason those emergent behaviors arise is that many-body systems result from symmetries being broken. Consider, for example, a glucose molecule: It will have a particular orientation even though the equations governing its atoms are rotationally symmetric. That kind of symmetry breaking is called spontaneous, to indicate that the physical system does not exhibit the symmetry present in the underlying dynamics.

It may seem that the above discussion has no relevance to particle physics in general or to the Higgs boson in particular. But in quantum field theory, the ground state, or vacuum, behaves like a many-body system. And just as a particular glucose orientation breaks an underlying rotation symmetry, a nonvanishing vacuum expectation value of the Higgs boson field, as we will describe, breaks symmetries that would otherwise forbid masses for elementary particles. Now that the Higgs boson (or something much like it) has been found at the Large Hadron Collider (LHC; see Physics Today, September 2012, page 12), particle experimentalists are searching for more kinds of Higgs bosons and working to find out if the Higgs boson interacts with the dark matter that holds the universe together. Cosmologists are trying to understand the symmetry-breaking Higgs phase transition, which took place early in the history of the universe, and whether that event explains the excess of matter over antimatter. The measured mass of the Higgs boson implies that the symmetry-breaking vacuum is metastable. If no new physics intervenes, an unlucky quantum fluctuation will eventually spark a cosmic catastrophe.
For more, see reference.

Residents of poorer nations find greater meaning in life

Association for Psychological Science / December 18, 2013 / Social / 0
Ref:  http://www.psypost.org/2013/12/residents-of-poorer-nations-find-greater-meaning-in-life-21792

While residents of wealthy nations tend to have greater life satisfaction, new research shows that those living in poorer nations report having greater meaning in life.
These findings, published in Psychological Science, a journal of the Association for Psychological Science, suggest that meaning in life may be higher in poorer nations as a result of greater religiosity. As countries become richer, religion becomes less central to people’s lives and they lose a sense of meaning in life.

“Thus far, the wealth of nations has been almost always associated with longevity, health, happiness, or life satisfaction,” explains psychological scientist Shigehiro Oishi of the University of Virginia.
“Given that meaning in life is an important aspect of overall well-being, we wanted to look more carefully at differential patterns, correlates, and predictors for meaning in life.”
Oishi and colleague Ed Diener of the University of Illinois at Urbana-Champaign investigated life satisfaction, meaning, and well-being by examining data from the 2007 Gallup World Poll, a large-scale survey of over 140,000 participants from 132 countries. In addition to answering a basic life satisfaction question, participants were asked: “Do you feel your life has an important purpose or meaning?” and “Is religion an important part of your daily life?”

The data revealed some unexpected trends:

“Among Americans, those who are high in life satisfaction are also high in meaning in life,” says Oishi. “But when we looked at the societal level of analysis, we found a completely different pattern of the association between meaning in life and life satisfaction.”

When looking across many countries, Oishi and Diener found that people in wealthier nations were more educated, had fewer children, and expressed more individualistic attitudes compared to those in poorer countries – all factors that were associated with higher life satisfaction but a significantly lower sense of meaning in life.

The data suggest that religiosity may play an important role: Residents of wealthier nations, where religiosity is lower, reported less meaning in life and had higher suicide rates than poorer countries.

According to the researchers, religion may provide meaning in life to the extent that it helps people to overcome personal difficulty and cope with the struggles of working to survive in poor economic conditions:  “Religion gives a system that connects daily experiences with the coherent whole and a general structure to one’s life…and plays a critical role in constructing meaning out of extreme hardship,” the researchers write.

Oishi and Diener hope to replicate these findings using more comprehensive measures of meaning and religiosity, and are interested in following countries over time to track whether economic prosperity gives rise to less religiosity and less meaning in life.

Neural prosthesis restores behavior after brain injury

Case Western Reserve University / December 29, 2013 / Mental Health / 1
Full article:  http://www.psypost.org/2013/12/neural-prosthesis-restores-behavior-after-brain-injury-21893



Scientists from Case Western Reserve University and University of Kansas Medical Center have restored behavior—in this case, the ability to reach through a narrow opening and grasp food—using a neural prosthesis in a rat model of brain injury.

Ultimately, the team hopes to develop a device that rapidly and substantially improves function after brain injury in humans. There is no such commercial treatment for the 1.5 million Americans, including soldiers in Afghanistan and Iraq, who suffer traumatic brain injuries (TBI), or the nearly 800,000 stroke victims who suffer weakness or paralysis in the United States, annually.

The prosthesis, called a brain-machine-brain interface, is a closed-loop microelectronic system. It records signals from one part of the brain, processes them in real time, and then bridges the injury by stimulating a second part of the brain that had lost connectivity.

Their work is published online this week in the science journal Proceedings of the National Academy of Sciences.

“If you use the device to couple activity from one part of the brain to another, is it possible to induce recovery from TBI? That’s the core of this investigation,” said Pedram Mohseni, professor of electrical engineering and computer science at Case Western Reserve, who built the brain prosthesis.
“We found that, yes, it is possible to use a closed-loop neural prosthesis to facilitate repair of a brain injury,” he said.

The researchers tested the prosthesis in a rat model of brain injury in the laboratory of Randolph J. Nudo, professor of molecular and integrative physiology at the University of Kansas. Nudo mapped the rat’s brain and developed the model in which anterior and posterior parts of the brain that control the rat’s forelimbs are disconnected.

Atop each animal’s head, the brain-machine-brain interface is a microchip on a circuit board smaller than a quarter connected to microelectrodes implanted in the two brain regions.
The device amplifies signals, which are called neural action potentials and produced by the neurons in the anterior of the brain. An algorithm separates these signals, recorded as brain spike activity, from noise and other artifacts. With each spike detected, the microchip sends a pulse of electric current to stimulate neurons in the posterior part of the brain, artificially connecting the two brain regions.

Two weeks after the prosthesis had been implanted and run continuously, the rat models using the full closed-loop system had recovered nearly all function lost due to injury, successfully retrieving a food pellet close to 70 percent of the time, or as well as normal, uninjured rats. Rat models that received random stimuli from the device retrieved less than half the pellets and those that received no stimuli retrieved about a quarter of them.

“A question still to be answered is must the implant be left in place for life?” Mohseni said. “Or can it be removed after two months or six months, if and when new connections have been formed in the brain?”

Brain studies have shown that, during periods of growth, neurons that regularly communicate with each other develop and solidify connections.

Mohseni and Nudo said they need more systematic studies to determine what happens in the brain that leads to restoration of function. They also want to determine if there is an optimal time window after injury in which they must implant the device in order to restore function.

Replacement artificial heart keeps first patient alive

13:49 31 December 2013 by Niall Firth in NewScientist

(Image: Carmat)

 

If you stayed awake during biology in school, you might recognise the shapes at the left and top right of this image: they are models of the heart. The object at lower right, looking like a cross between a tape dispenser and a second-world-war gas mask, will be less familiar.

 

Developed by French firm Carmat, this is an artificial heart designed for people whose hearts are so weak that they can no longer pump enough blood to sustain life. It was implanted in its first human patient on 18 December 2013 at the Georges Pompidou European Hospital in Paris.

The device replaces the real heart and is meant to keep patients going while they wait for a donor: Carmat claims it can be used for up to five years. Lithium-ion batteries outside the body keep it pumping, while sensors monitor and automatically control blood flow to adapt to the patient's activity.

 

Biomaterials in the artificial heart help to prevent the body from rejecting it. It is about three times larger than the natural organ, so it fits only about 65 per cent of patients. It would fit 86 per cent of men, though, because they have larger chest cavities.

 

So far, the operation seems to have been a success: the patient is said to be awake and talking to his family, and in a statement issued to Reuters, the hospital said the device is working well.

"The artificial heart is functioning normally, automatically catering to the body's needs without any manual adjustment necessary," the surgeons said.

For you who do not accept evolution

For you who do not accept evolution (and some that do): you have a point. Claims shouldn't be accepted on authority, even scientific authority -- even your own authority. Evidence and logic is all that counts. Of course, you must recognize evidence and be trained in logic, or all is lost. For some people, alas, that is the case, and they will spend their lives as fools. For the rest, there are authors such as Richard Dawkins, Jerry Coyne, John Maynard Smith, Darwin himself of course, and others who will at least explain what evolution is and how it works, and present a great deal of the evidence supporting it. You could peruse a few of these and then ask yourself how you really think about it. That's all I'm recommending and asking for, not some kind of faith. Indeed, just about any scientific subject, from climate warming theory to the Big Bang, that always must be your beginning.